A recipe for initial points in variational compression of quantum time-evolution operators that provably converges to near-optimal O(N t polylog(N t/ε)) gate complexity for local translationally invariant Hamiltonians.
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A planar trimon circuit with three modes achieves universal Hamiltonian control, implementing all 16 two-qubit Pauli operators and operating as an 8-state qudit with higher coherence than standard transmons.
Superconducting diodes provide coherent nonreciprocal qubit-qubit coupling and realize a nonreciprocal half-iSWAP gate in cQED architectures.
citing papers explorer
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Near-Optimal Quantum Time Evolution Circuits via Provably Convergent Compression
A recipe for initial points in variational compression of quantum time-evolution operators that provably converges to near-optimal O(N t polylog(N t/ε)) gate complexity for local translationally invariant Hamiltonians.
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Universal Hamiltonian control in a planar trimon circuit
A planar trimon circuit with three modes achieves universal Hamiltonian control, implementing all 16 two-qubit Pauli operators and operating as an 8-state qudit with higher coherence than standard transmons.
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Nonreciprocal quantum information processing with superconducting diodes in circuit quantum electrodynamics
Superconducting diodes provide coherent nonreciprocal qubit-qubit coupling and realize a nonreciprocal half-iSWAP gate in cQED architectures.